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Visual cues used in the choice of mate by fowl and their potential importance for the breeder industry

  • E.K.M Jones (a1) and N.B Prescott (a1)

Modern fowl breeder production has resulted in a wide disparity between the environment, mating behaviour and morphology of modern breeds in comparison with progenitor species. The environment is strictly controlled in most respects and dim lighting is maintained with luminaires that were originally designed for humans and that differ substantially in terms of intensity and colour balance from natural daylight. The elaborate mating displays observed in feral poultry and red jungle fowl rarely, if ever, occur in breeder houses. In most avian species females choose the males, whereas cockerels in breeder houses often appear to mate forcibly and aggressively with hens in the absence of any assessment by the hen. Cockerel and hen breeder fowl also differ morphologically from their progenitor species through genetic selection (larger and heavier) or mutilations (dubbing, etc). Given the apparently large differences between the subtle, gradually evolved mating ‘ecology’ found naturally and the production environments found commercially, it is perhaps surprising that little consideration has been given to this disparity in modern breeder production environments. An understanding of the factors governing choice of mate in commercial breeder houses and the influence of the visual environment may highlight novel methods whereby efficiency of these enterprises can be improved and elements of the welfare of breeder fowl assessed.

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Appleby, M.C. (1985) Hawks, doves and chickens. New Scientist 1438: 1618
Ashton, W.L.G., Pattison, M. and BARNETT, I.C.C. (1973) Light induced eye abnormalities in turkeys and the turkey blindness syndrome. Research in Veterinary Science 14: 4246
Banks, E.W. (1954) Social organisation in the red jungle fowl, Gallusg. bankiyu. Bulletin of the Ecological Society of America 35: 67
Boshouwers, F.M.G. and Nicaise, E. (1987) Physical activity and energy expenditure of laying hens as affected by light intensity. British Poultry Science 33: 711717
Collias, N.E., Collias, E.C., Hunsaiker, D. and Minning, L. (1966) Locality fixation, mobility and social organisation within a confined population of red jungle fowl. Animal Behaviour 14: 550559
Craig, J.C. and Bhagwat, A.L. (1974) Agonistic and mating behaviour of adult chickens modified by social and physical environments. Applied Animal Ethology 1: 5765
Davis, G.S., Siopes, T.D., Peiffer, R.L. and Cook, C. (1986) Morphologic changes induced by photoperiod in eyes of turkey poults. American Journal of Veterinary Research. 47: 953955
Davis, N.J., Prescott, N.B., Savory, C.J. and Wathes, C. M. (1999) Preferences of growing fowl for different light intensities in relation to age, strain and behaviour. Animal Welfare 8: 193203
Endler, J.A. (1993) The colour of light in forests and its implications. Ecological Monographs 127
Endler, J.A. and Basolo, A.L. (1998) Sensory ecology, receiver biases and sexual selection. Trends in Evolution and Ecology 13: 415426
Fawc (1998) Report on the Welfare of Broiler Breeders. FAWC, Surbiton, UK
Fisher, A.E. and Hale, E.B. (1957) Stimulus determinants of sexual and aggressive behaviour in male domestic fowl. Behaviour 10: 309323
Fisher, R.A. (1930) The Gemtical Theory of Natural Selection. 2nd Edition. University Press, Oxford, UK
Folstad, I. and Karter, A.J. (1992) Parasites, bright males, and the immunocompetence handicap. American Naturalist 139: 603622
Forkman, B. and Corr, S. (1996) Influence of size and asymmetry of sexual characters in the rooster and hen on number of eggs laid. Applied Animal Behaviour Science 49: 285291
Gibson, R.M. and Bradbury, J.W. (1985) Sexual selection in lekking sage grouse: phenotypic correlates of male mating success. Behavioural Ecology and Sociobiology 18: 117123
Gilbert, A.B. (1971) The endocrine ovary in reproduction. In: Physiology and Biochemistry of the Domestic Fowl (Bell, D.J. and Freeman, B.M., Eds.), Volume 3, Academic Press, London, pp. 14491468
Graves, H.B., Hable, C.P. and Jenkins, T.R. (1985) Sexual selection in Gallus: effects of morphology and dominance on female spatial behaviour. Behavioural Processes 11: 189197
Groen, A.F., Jiang, X., Emmerson, D.A. and V'ereijken, A. (1998) A deterministic model for the economic evaluation of broiler production systems. Poultry Science 77: 925933
Guhl, A.M. (1951) Measurable differences in mating behaviour of cocks. Poultry Science 30: 687693
Halliday, T.P. (1983) Information and communication. Communication. Blackwell Scientific Publications, Oxford, UK
Hamilton, W.D. and Zuk, M. (1982) Heritable true fitness and bright birds: a role for parasites. Science 213: 384387
Howland, H.C. (1993) Early refractive development. In: Early Visual Development, Normal and Abnornal (Simons, K., Ed.), Oxford University Press, Oxford, UK, pp. 528
Johnsen, T.S. and Zuk, M. (1996) Repeatability of mate choice in female red jungle fowl. Behavioural Ecology 7: 243246
Jones, E.K.M. (1998) The Effect of Ultraviolet Light on the Mating Behaviour and Mate Choice of broiler Breeders. MSc Thesis, University of Edinburgh, UK
Jones, E.K.M., Prescott, N.B. and Wathes, C.M. (1999) The role of UVA light in mating behaviour and mate choice by domestic broiler breeders, Gallus gallus domesticus. British Poultry Science (submitted for publication)
Kimball, R.T., Lignon, J.D. and Merola-Zwartjes, M. (1997a) Fluctuating asymmetry in red junglefowl. Journal of Evolutionary Biology 10: 441457
Kimball, R.T., Lignon, J.D. and Merola-Zwartjes, M. (1997b) Asymmetry testicular and secondary sexual characters in red junglefowl. Auk 114: 221228
Kratzer, D.D. and Craig, J.V. (1980) Mating behaviour of cockerels: effects of social status, group size and group density. Applied Animal Ethology 6: 4962
Kruijt, J.P. (1964) Ontogeny of social behaviour in Burmese red jungle fowl (Gallus gallus spadiceus). Bonnaterre Behaviour Supplement 12: 1201
Leary, R.F. and Allendorf, F.W. (1989) Fluctuating asymmetry as an indicator of stress: implications for conservation biology. Trends in Ecology and Evolution 4: 214217
Leonard, M.L. and Zanette, L. (1998) Female mate choice and male behaviour in domestic fowl. Animal Behaviour 56: 10991105
Leonard, M.L., Zanette, L. and Fairfull, R.W. (1993a) Early exposure to females affects interactions between male White Leghorn chickens. Applied Animal Behaviour Science 36: 2938
Leonard, M.L., Zanette, L., Thompson, B.K. and Fairfull, R.W. (1993b) Early exposure to the opposite sex affects mating behaviour in White Leghorn chickens. Applied Animal Behaviour Science 37: 5767
Leonard, M.L., Zanette, L. and Clinchy, M. (1996) The effect of early exposure to the opposite sex on mate choice in White Leghorn chickens. Applied Animal Behaviour Science 48: 1523
Ligon, J.D., Thornhill, R., Zuk, M. and Johnson, C. (1990) Male male competition, ornamentation and the role of testosterone in sexual selection in the red jungle fowl. Animal Behaviour 40: 367373
Ligon, J.D. and Zwartjes, P.W. (1995a) Ornate plumage of male red jungle fowl does not influence mate choice by females. Animal Behaviour 49: 117125
Ligon, J.D. and Zwartjes, P.W. (1995b) Female red jungle fowl choose to mate with multiple males. Animal Behaviour 49: 127135
Ligon, J.D., Kimball, R. and Merola-ZWARTJES, M. (1998) Mate choice by female red jungle fowl: the issues of multiple ornaments and fluctuating asymmetry. Animal Behaviour 55: 4150
Lill, A. (1966) Some observations on social organisation and non random mating in captive Burmese red jungle fowl. Behaviour 26: 228242
Maff (1996) Summary of the law relating to farm animal welfare. MAFF Publications, London p. 31
Manning, A. (1974) An Introduction to Animal Behaviour. 2nd Edition, Edward Arnold, London, pp. 119122
Manser, C.E. (1996) Effects of lighting on the welfare of domestic poultry: a review. Animal Welfare 5: 341360
Marks, H.L., Siegel, P.B. and Kramer, C.Y. (1960) Effect of comb and wattle removal on the social organisation of mixed flocks of chickens. Animal Behaviour 8: 192196
Mcbride, G., Parer, I.P. and Foenander, F. (1969) The social organisation and behaviour of the feral domestic fowl. Animal Behaviour Monographs 2: 125181
Millman, S.T., Duncan, I.J.H. and Widowski, T.M. (1996) Forced copulations by broiler breeder males. In: Proceedings of the 30th International Congress of the ISAE, GuelphCanada p. 50
Millman, S.T., Duncan, I.J.H. and WIDOWSKI, T.M. (1997) Extreme aggression in male broiler breeder fowl. In: Proceedings of the 31st International Congress of the ISAE, PragueCzech Republic p. 188
Moller, A.P. (1994) Directional selection on directional asymmetry: testes size and secondary sexual characters in birds. Proceedings of the Royal Society of London Series B 258: 147151
Moller, A.P., Santora, G.S. and Vestergaard, K.S. (1995) Developmental instability in relation to population density and breed of chickens Gallus gallus. Poultry Science 74: 17611771
Moller, A.P., Santora, G.S. and Vestergaard, K.S. (1999) Developmental instability and light regime in chickens (Gallus gallus). Applied Animal Behaviour Science 62: 5771
Morsy, I.E.D. (1998) Evaluation of broiler breeder production efficiency. World Poultry 14: 3539
Nilipour, A.H. (1997) What affects hatchability and how can it be improved. World Poultry 13: 1922
Nuboer, J.F.W., Van Nuys, W.M. and Van Sternbergen, J.C. (1983) Colour changes in a light regimen as synchronizers of circadian activity. Journal of Coniparative Physiology A151: 359366
Pollock, D.L. (1999) A geneticist's perspective from within a broiler primary breeder company. Poultry Science 78: 414418
Prescott, N.B. and Wathes, C.M. (1999a) The reflective properties of domestic fowl (Gallus g. domesticus), the fabric of their housing, and the characteristics of the light environment in environmentally controlled poultry houses. British Poultry Science 40: 185193
Prescott, N.B. and Wathes, C.M. (1999b) Spectral sensitivity of the domestic fowl (Gallus g. domesticus). British Poultry Science 40: 332339
Price, E.O. (1984) Behavioural aspects of animal domestication. Quarterly Review of Biology 59: 131
Proudfoot, F.G. and Sefton, A.E. (1978) Feed texture and light treatment effects on the performance of broiler chickens. Poultry Science 57: 408416
Schaeffel, F. (1997/1998) Neural control of eye growth in birds. Zoology 100: 244259
Schaeffel, F. and Howland, H.C. (1991) Properties of the feedback loops controlling eye growth and refractive state in the chicken. Vision Research 31: 717734
Siegel, P.B. and Siegel, H.S. (1964) Rearing methods and subsequent sexual behaviour of male chickens. Animal Behaviour 12: 270271
Siegel, P.B., Haberfeld, A., Mukherjee, T.K, Stallard, L.C., Marks, H.L., Anthony, N.B. and Dunnington, E.A. (1992) Jungle fowl-domestic fowl relationships: a use of DNA fingerprinting. World's Poultry Science Journal 48: 147155
Siopes, T.D., Timmons, M.B., Baughman, G.R. and Parkhurst, C.R. (1984) The effects of light intensity on turkey poult performance, eye morphology, and adrenal weight. Poultry Science 63: 904909
Swaddle, J.P. and Witter, M.S. (1994) Food, feathers and fluctuating asymmetries. Proceedings of the Royal Society of London B 255: 147152
Thompson, C.E. and Forbes, J.M. (1999) Morphology of eyes of turkeys reared under commercial lighting regimes at different light intensities. In: Proceedings of fhe WPSA Spring Meeting, ScarboroughUK p. 48
Troilo, D., Li, T., Glasser, A. and Howland, H.C. (1995) Differences in eye growth and the response to visual deprivation in different strains of chicken. Vision Research 35: 12111216
Upp, C.W. (1928) Preferential mating in fowls. Poultry Science 7: 225232
Wathes, C.M. (1996) Availability of Choice in Cirrrent Systems of Husbandry in the UK. British Society of Animal Science Occasional Publications No. 20, pp. 6873
Widemo, F. and Saether, S.A. (1999) Beauty is in the eye of the beholder: causes and consequences of variation in mating preference. Trends in Ecology and Evolution 14: 2631
Widowski, T.A., Danilo, M.A., LO FO WONG, D.M.A. and Duncan, I.J.H. (1998) Rearing with males accelerates onset of sexual maturity in female domestic fowl. Poultry Science 77: 150155
Wiley, R.H. (1973) Territoriality and non random mating in sage grouse (Entrocercu urophasianus). Animal Behaviour Monographs 6: 87169
Witter, M.S. and Lee, S.J. (1995) Habitat structure, stress and plumage development. Proceedings of the Royal Society of London B 261: 303308
Wood-Gush, D.G.M. (1954) The courtship of the Brown Leghorn cock. British Journal of Animal Behaviour 2: 95102
Wood-Gush, D.G.M. (1956) The agonistic and courtship of the Brown Leghorn cock. British Journal of Animal Behaviour 4: 133142
Wood-Gush, D.G.M. (1958) The effect of experience on the mating behaviour of the domestic cock. Animal Behaviour 6: 6871
Wood-Gush, D.G.M. (1971) The Behaviour of the Domestic Fowl. Heinemann Educational Books Ltd, London, pp. 18, 66, 77
Wortel, J.F., Rugenbrini, C.H. and Nuboer, J.F.W. (1987) The phototopic spectral sensitivity of the dorsal and ventral retina of the chicken. Journal of Comparative Physiology A 160: 151154
Yinon, U., Rose, L. and Shapiro, A. (1980) Myopia in the eye of developing chicks following monocular and binocular lid closure. Vision Research 20: 137141
Zahavi, A. (1975) Mate selection: a selection for a handicap. Journal of Theoretical Biology 53: 205214
Zuk, M., Thornhill, R., Ligon, J.D.M., Johnson, I.C., Austad, S., Ligon, S.H., Thornhill, N.W. and Costin, C. (1990) The role of male ornamentation and courtship behaviour in female mate choice of red jungle fowl. American Naturalist 136: 459473
Zuk, M., Ligon, J.D. and Thornhill, R. (1992) Effects of experimental manipulation of male secondary sex characters on female preference in red jungle fowl. Animal Behaviour 44: 9991006
Zuk, M., Johnsen, T.S. and Maclarty, T. (1995) Endocrine-immune interactions, ornaments and mate choice in red jungle fowl. Proceedings of the Royal Society of London B 260: 205210
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